Bioelements in the treatment of burn injuries – The complex review of metabolism and supplementation (copper, selenium, zinc, iron, manganese, chromium and magnesium)
Wojciech Żwierełło Journal of Trace Elements in Medicine and Biology Volume 62, December 2020, 126616
Highlights
• Burn injuries cause crucial changes in bioelements metabolism.
• Bioelements level results from hypermetabolism, exudation and reserves mobilization.
• Current research focuses on the role of Se, Cu, and Zn in the treatment of burns.
• Supplementation with Fe, Mn, Cr or Mg may be helpful in burns treatment.
Appropriate nutrition is a key component of burn treatment and should be regarded as an integral part of the therapeutic process in burn patients. A nutritional intervention plan should not only allow for adequate quantities of energy and protein but also carefully consider the supply of macro- and micronutrients. As a result of the severe inflammatory response, oxidative stress, and hypermetabolic state, accompanied by often extensive exudation in burn patients, there is a considerable loss of macro- and micronutrients, including essential trace elements. This leads to certain complications, involving e.g. more frequent infections and impaired wound healing. Our current body of knowledge is still insufficient, and the studies carried out to date focus for the most part on the imbalances in trace elements, such as copper (Cu), selenium (Se), and zinc (Zn).
Nevertheless, there are many other trace elements involved in immune functions, regulating gene expression or antioxidant defense, and many of those have not been properly investigated in a clinical setting. Due to the insufficient amount of unambiguous literature data and relatively few, often dated, studies carried out with small patient groups, further evaluation of macro- and microelements in burn patients seems indispensable, e.g. to bring up to date local nutritional protocols.